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  5. Simulation of shear banding and texture evolution in fcc-fcc heterophase co-deformation

Simulation of shear banding and texture evolution in fcc-fcc heterophase co-deformation

来源 :1st International Conference on Computational Design and Sim | 被引量 : 0次 | 上传用户:wsl526
【摘 要】
Texture and microstructure evolution in a plane strain compressed fcc-fcc metal matrix composite (Cu-Ag) with a heterophase microstructure was studied using crystal plasticity finite element simulatio
【作 者】
N.Jia F.Roters P.Eisenlohr D.Raabe X.Zhao 
【机 构】
Key Laboratory for Anisotropy and Texture of Materials (MOE), Northeastern University,Shenyang 11081
【出 处】
1st International Conference on Computational Design and Sim
【发表日期】
2015年9期
【关键词】
Shear band Texture Crystal plasticity finite element modeling 
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  Texture and microstructure evolution in a plane strain compressed fcc-fcc metal matrix composite (Cu-Ag) with a heterophase microstructure was studied using crystal plasticity finite element simulations.Lattice reorientations induced by both crystallographic (dislocation slip and twinning) and non-crystallographic (shear banding) mechanisms are addressed.First, simulations on a polycrystalline composite are made.Quite similar texture trends are observed for the composites and for the individual single-phase materials, namely, copper-type texture components in the Cu phase and brass-type texture components in the Ag phase.This result differs from experimental data that show less copper-type and more brass-type textures in both phases for the composite material.
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